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The Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) (1993)

Hansen, Earl G. ; Chrien, Thomas G. ; Enmark, Harry T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: AVIRIS is a facility consisting of a flight system, a ground data system, a calibration facility, and a full-time operations team. The facility was developed by JPL under funding from NASA. NASA also provides funding for operations and maintenance. The flight system is a whisk-broom imager that acquires data in 224 narrow, contiguous spectral bands covering the solar reflected portion of the electromagnetic spectrum. It is flown aboard the NASA high altitude ER-2 research aircraft. The ground data system is a facility dedicated to the processing and distribution of data acquired by AVIRIS. It operates year round at JPL. The calibration facility consists of a calibration laboratory at JPL and a suite of field instruments and procedures for performing inflight calibration of AVIRIS. A small team of engineers, technicians, and scientists supports a yearly operations schedule that includes 6 months of flight operations, 6 months of routine ground maintenance of the flight system, and year-round data processing and distribution. Details of the AVIRIS system, its performance history, and future plans are described.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: Remote Sensing of Environment (ISSN 0034-4257); 44; 2-3; p. 127-143.

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Current instrument status of the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) (1991)

Green, Robert O. ; Sarture, Charles M. ; Porter, Wallace M. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: An upgraded version of AVIRIS, an airborne imaging spectrometer based on a whiskbroom-type scanner coupled via optical fibers to four dispersive spectrometers, that has been in operation since 1987 is described. Emphasis is placed on specific AVIRIS subsystems including foreoptics, fiber optics, and an in-flight reference source; spectrometers and detector dewars; a scan drive mechanism; a signal chain; digital electronics; a tape recorder; calibration systems; and ground support requirements.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: In: Infrared technology XVII; Proceedings of the Meeting, San Diego, CA, July 22-26, 1991 (A93-38376 15-35); p. 164-175.

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Novel approaches to the construction of miniaturized analytical instrumentation (1992)

Burns, Stanley G. ; Deinhammer, Randall S. ; Deninger, William D. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: This paper focuses on the design, construction, preliminary testing, and potential applications of three forms of miniaturized analytical instrumentation. The first is an optical fiber instrument for monitoring pH and other cations in aqueous solutions. The instrument couples chemically selective indicators that were immobilized at porous polymeric films with a hardware package that provides the excitation light source, required optical components, and detection and data processing hardware. The second is a new form of a piezoelectric mass sensor. The sensor was fabricated by the deposition of a thin (5.5 micron) film of piezoelectric aluminum nitride (AIN). The completed deposition process yields a thin film resonator (TFR) that is shaped as a 400 micron square and supports a standing bulk acoustic wave in a longitudinal mode at frequencies of approx. 1 GHz. Various deposition and vapor sorption studies indicate that the mass sensitivity of the TFR's rival those of the most sensitive mass sensors currently available, though offering such performance in a markedly smaller device. The third couples a novel form of liquid chromatography with microlithographic miniaturization techniques. The status of the miniaturization effort, the goal of which is to achieve chip-scale separations, is briefly discussed.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA-CR-191988 , NAS 1.26:191988

Format: application/pdf

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4

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Novel approaches to the construction of miniaturized analytical instrumentation (1992)

Porter, Marc D. ; Burns, Stanley G. ; Deinhammer, Randall S. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-28

Description: This paper focuses on the design, construction, preliminary testing, and potential applications of three forms of miniaturized analytical instrumentation. The first is an optical fiber instrument for monitoring pH and other cations in aqueous solutions. The instrument couples chemically selective indicators that were immobilized at porous polymeric films with a hardware package that provides the excitation light source, required optical components, and detection and data processing hardware. The second is a new form of a piezoelectric mass sensor. The sensor was fabricated by the deposition of a thin (5.5 micron) film of piezoelectric aluminum nitride (AIN). The completed deposition process yields a thin film resonator (TFR) that is shaped as a 400 micron square and supports a standing bulk acoustic wave in a longitudinal mode at frequencies of approx. 1 GHz. Various deposition and vapor sorption studies indicate that the mass sensitivity of the TFR's rival those of the most sensitive mass sensors currently available, though offering such performance in a markedly smaller device. The third couples a novel form of liquid chromatography with microlithographic miniaturization techniques. The status of the miniaturization effort, the goal of which is to achieve chip-scale separations, is briefly discussed.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: SAE PAPER 921179 , ; 11 p.|SAE, International Conference on Environmental Systems; Jul 13, 1992 - Jul 16, 1992; Seattle, WA; United States

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Evolution of the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) flight and ground data processing system (1990)

Porter, Wallace M. ; Sarture, Charles M. ; Chrien, Thomas G. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The modifications made to both the AVIRIS instrument and the data processing facility since the instrument made its initial flight in the summer of 1987 are described. Historical development of the data system is discussed and attention is given to enhancements to instrument stability and noise performance. AVIRIS data facility objectives include rapid and automated decommutation and archiving of data, the ability to assess the quality of the data and health of the instrument, and the provision of an automated procedure for applying radiometric corrections to the data and providing responsive processing of data requests from investigators. The modifications described have resulted in an overall radiometric stability of better than 10 percent, with stability of only a few percent during a single flight.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: Imaging Spectroscopy of the Terrestrial Environment; Apr 16, 1990 - Apr 17, 1990; Orlando, FL; United States

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